Advanced static VAR compensators (ASVCs) are used to improve the transient stability of electric power systems. In this paper we present a new control strategy, which has superior performances compared to the conventional control techniques for these systems. The proposed method utilizes a novel current reference based on the transient energy function (TEF) approach. It also includes the voltage limits in the optimizing process using the Lyapunov theory and linear programming. In addition, it is optimized considering the permissible system conditions. A continuous control of the reactive power flow is also achieved. The proposed ASVC is modeled in single-machine and multimachine systems. In order to verify the excellent performances of the proposed approach compared to the conventional control techniques and systems without ASVC, simulation results in response to severe disturbances in a single-machine system as well as a three-machine system are provided.
[1]
K. R. Padiyar,et al.
ENERGY FUNCTION ANALYSIS FOR POWER SYSTEM STABILITY
,
1990
.
[2]
Rafael Mihalic,et al.
Improvement of transient stability using unified power flow controller
,
1996
.
[3]
M. Pavella,et al.
Direct methods for studying dynamics of large-scale electric power systems - A survey
,
1985,
Autom..
[4]
A. Michel.
Power system stability: Analysis by the direct method of Lyapunov
,
1983,
Proceedings of the IEEE.
[5]
D. Povh,et al.
Improvement Of Transient Stability By Insertion Of Facts Devices
,
1993,
Proceedings. Joint International Power Conference Athens Power Tech,.